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| 个人简历 |
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Personal resume |
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吴学邦,中国科学院合肥物质科学研究院研究员、博士生导师,固体物理研究所所长,国家杰出青年科学基金获得者。主要从事核用金属材料的辐照损伤机制、微结构设计与制备研究,在Nature Materials、Acta Materialia、Nuclear Fusion等期刊上发表学术论文140余篇,合作申请软件著作权16件,授权国家发明专利24件。先后主持国家重点研发计划青年项目、重点研发计划课题、基金委杰青、重点、面上、安徽省杰青等项目。
一、教育工作简历
2000.09—2004.7,安徽师范大学, 物理学, 学士
2004.09—2009.7,中科院合肥物质科学研究院,凝聚态物理, 博士
2009.07—2017.2,中科院合肥物质科学研究院 固体物理所,助研、副研
2017.03—今, 中科院合肥物质科学研究院 固体物理所,研究员、博导
二、学术荣誉
1)国家杰出青年基金获得者(2023)
2)安徽省杰出青年基金获得者(2019)
3)中国科学院青年创新促进会优秀会员(2019)
4)国家重点研发计划青年科学家项目负责人(2017)
5)安徽省优博论文获得者(2011)
三、代表性论文(第一/通讯作者)
1) Nature Materials, 2019, 18, 833-839.
2) Acta Materialia, 2024, 264, 119547.
3) Acta Materialia, 2023, 242, 118469.
4) Acta Materialia, 2022, 228, 117765.
5) Acta Materialia, 2022, 227, 117725.
6) Acta Materialia, 2016, 120, 315-326.
7) Scripta Materialia, 2023, 224, 115136.
8) Journal of Materials Science & Technology, 2023, 140, 221-232.
9) Nuclear Fusion, 2017, 57, 0160006.
10) Nuclear Fusion, 2013, 53, 073049.
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| 研究方向 |
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Research direction |
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1)核用金属材料辐照行为
2)高性能核材料研发
3)结构材料强韧化
4)多尺度模拟计算
高性能核能工程材料的制备与应用
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| 招生信息 |
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Enrollment information |
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招生专业:材料物理与化学、凝聚态物理、材料与化工等
欢迎材料物理、材料学、物理学、材料科学与工程等专业学生报考 |
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| 论文专著 |
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The monograph |
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1) Excellent high temperature strength and ductility of the ZrC nanoparticles dispersed molybdenum - Acta Materialia - 2022
2) Hierarchical microstructures enabled excellent low-temperature strength-ductility synergy in bulk pure tungsten - Acta Materialia - 2022
3) Hydrogen trapping, desorption and clustering in heterophase interfaces of W-ZrC alloy - Acta Materialia - 2023
4) Predictive model of hydrogen trapping and bubbling in nanovoids in bcc metals - Nature Materials, 2019, 18, 833-839 - 2019
5) Ultrahigh strength, thermal stability and high thermal conductivity in hierarchical nanostructured Cu-W alloy - Acta Materialia - 2024
6) Excellent high temperature strength and ductility of the ZrC nanoparticles dispersed molybdenum - Acta Materialia - 2022
7) Hierarchical microstructures enabled excellent low-temperature strength-ductility synergy in bulk pure tungsten - Acta Materialia - 2022
8) Hydrogen trapping, desorption and clustering in heterophase interfaces of W-ZrC alloy - Acta Materialia - 2023
9) Predictive model of hydrogen trapping and bubbling in nanovoids in bcc metals - Nature Materials, 2019, 18, 833-839 - 2019
10) Ultrahigh strength, thermal stability and high thermal conductivity in hierarchical nanostructured Cu-W alloy - Acta Materialia - 2024
11) Excellent high temperature strength and ductility of the ZrC nanoparticles dispersed molybdenum - Acta Materialia - 2022
12) Hierarchical microstructures enabled excellent low-temperature strength-ductility synergy in bulk pure tungsten - Acta Materialia - 2022
13) Hydrogen trapping, desorption and clustering in heterophase interfaces of W-ZrC alloy - Acta Materialia - 2023
14) Predictive model of hydrogen trapping and bubbling in nanovoids in bcc metals - Nature Materials, 2019, 18, 833-839 - 2019
15) Ultrahigh strength, thermal stability and high thermal conductivity in hierarchical nanostructured Cu-W alloy - Acta Materialia - 2024
16) Ultrahigh strength, thermal stability and high thermal conductivity in hierarchical nanostructured Cu-W alloy - Acta Materialia - 2024
17) Predictive model of hydrogen trapping and bubbling in nanovoids in bcc metals - Nature Materials, 2019, 18, 833-839 - 2019
18) Hydrogen trapping, desorption and clustering in heterophase interfaces of W-ZrC alloy - Acta Materialia - 2023
19) Hierarchical microstructures enabled excellent low-temperature strength-ductility synergy in bulk pure tungsten - Acta Materialia - 2022
20) Excellent high temperature strength and ductility of the ZrC nanoparticles dispersed molybdenum - Acta Materialia - 2022
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COPYRIGHT 2007 中国科学技术大学研究生院、校学位办 All Rights Reserved 地址:安徽省合肥市金寨路96号 邮编:230026。
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